Can HER2 1+ Breast Cancer Be Considered as HER2-Low Tumor? A Comparison of Clinicopathological Features, Quantitative HER2 mRNA Levels, and Prognosis among HER2-Negative Breast Cancer

SIMPLE SUMMARY: HER2-low breast cancer is a new entity featuring low HER2 expression (HER2 1+ or HER2 2+/FISH−) and can potentially benefit from novel antibody-drug conjugates. A precise estimation of HER2-low expression is warranted. Here, we found that HER2 1+ and HER2 0 tumors shared similar clinicopathologic features and HER2 mRNA expression, significantly different from HER2 2+/FISH− tumors. A poor concordance rate was found between IHC/FISH and qRT-PCR for the estimation of HER2 expression in HER2-negative tumors. This study suggests that the current definition of HER2-low expression with the lower boundary of HER2 IHC 1+ may be inaccurate. IHC and qRT-PCR were not optimal to quantify HER2-low expression, especially for HER2 1+ patients. ABSTRACT: Background: Human epidermal growth factor receptor 2 (HER2)-low tumor is a new entity defined as HER2 immunohistochemistry (IHC) 1+ or 2+/fluorescence in situ hybridization (FISH)-negative. We aimed to evaluate whether HER2 mRNA levels tested by quantitative reverse transcriptase-polymerase chain reaction (qRT-PCR) could better define HER2-low tumors. Patients and methods: Consecutive breast cancer patients with hormonal receptor-positive, HER2-negative diseases, and HER2 mRNA results were included. Clinicopathologic features, HER2 mRNA expression level, and prognosis were compared among HER2 0, 1+ and 2+/FISH− groups. Concordance of the HER2 category between qRT-PCR and IHC/FISH was analyzed for each group. Results: 2296 patients were included: 368 (16.0%) HER2 0, 911 (39.7%) 1+, and 1017 (44.3%) 2+/FISH− tumors. HER2 1+ cases shared similarities with HER2 0 tumors in terms of clinicopathologic features (all p > 0.05), whereas IHC 2+/FISH− cases were less often non-IDC (p = 0.045), node-negative (p = 0.044), and Ki-67 < 14% (p <0.001). The mRNA expression was similar between HER2 0 and 1+ cases (p = 0.063), and both were lower than 2+/FISH− cases (p < 0.001). A poor concordance rate was found between IHC/FISH and qRT-PCR for HER2 0 and HER2-low cases (Cohen’s kappa 0.126, p < 0.001). No survival difference was observed among these groups, whether stratified by HER2 IHC/FISH status or mRNA level (all p > 0.05). Conclusions: HER2 1+ cases had similar clinicopathological features to HER2 0 breast cancers, and both were different from HER2 2+/FISH− cases. HER2 mRNA levels were comparable between HER2 0 and 1+ tumors, and both were significantly lower than IHC 2+/FISH− tumors. Neither IHC nor qRT-PCR may be optimal to quantify HER2-low expression, especially for HER2 1+ patients.